Abstract
Distribution networks are inherently radial and passive owing to the ease of operation and unidirectional power flow. Proper installation of Distributed Generators, on the one hand, makes the utility network active and mitigates certain power quality issues e.g., voltage dips, frequency deviations, losses, etc., but on the other hand, it disturbs the optimal coordination among existing protection devices e.g., over-current relays. In order to maintain the desired selectivity level, such that the primary and backup relays are synchronized against different contingencies, it necessitates design of intelligent and promising protection schemes to distinguish between the upstream and downstream power flows. This research proposes exploiting phase angle jump, an overlooked voltage sag parameter, to add directional element to digital over-current relays with inverse time characteristics. The decision on the direction of current is made on the basis of polarity of phase angle jump together with the impedance angle of the system. The proposed scheme at first is evaluated on a test system in a simulated environment under symmetrical and unsymmetrical faults and, secondly, as a proof of the concept, it is verified in real-time on a laboratory setup using a Power Hardware-in-loop (PHIL) system. Moreover, a comparative analysis is made with other state-of-the-art techniques to evaluate the performance and robustness of the proposed approach.
Highlights
Industrial revolution 4.0 has brought a broad scope of installing intelligent and autonomous devices to upgrade the exiting system to remain robust against abnormal conditions
The voltage sag profile of the system was analyzed under different faulty conditions, to better understand the variations in phase angle jump associated with respective voltage sag scenario
The standard design of digital over-current relay was modified and a directional element was introduced on the basis of trend of phase angle jump together with the polarity of impedance angle to distinguish between the upstream and downstream flows
Summary
Industrial revolution 4.0 has brought a broad scope of installing intelligent and autonomous devices to upgrade the exiting system to remain robust against abnormal conditions. Such protection devices lose their selectivity, to operate at the time of event for systems having intermittent power sources e.g., Distributed Generations (DGs) due to the bi-directional power flows [3,4]. In order to upgrade the existing protection schemes, two strategies are available, (1) changing internal settings of relays online and (2) adding directional element. Exploiting directional element is a feasible option to ensure optimal operation and coordination of protection devices under faulty conditions [5]
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